WANG, Lin-Xiang


Linxiang Wang
Professor, Department of Ocean Science and Engineering,
Zhejiang University
Phone: +86-571 88208802
Fax:   +86-571 88208891
Address: Dept. of Ocean Science and Engineering, Zhejiang University,
Zijingang Campus,866 Yuhangtang Road, Hangzhou, China, 310058
1.         1999 Ph.D., Mechatronic Engineering and Control, Zhejiang University, China.
2.         1995 M.S., Mechatronic Engineering and Control, Zhejiang University, China.
3.         1992 B.S., Fluid Power Transmission & Control, Anhui University of Technology, China.
Working Experience
1.         2011.06 – Present, Professor, Department of Ocean Science and Engineering, Zhejiang University.
2.         2008.03 – 2011.05, Chair Professor, Institute of Mechatronic Engineering, Hangzhou Dianzi University.
3.         2006.03 - 2008.02 , Associate Professor, Mads Clausen Institute for Product Innovation, University of Southern Denmark, Denmark.
4.         2003.03 - 2006.02 , Assistant Professor, Mads Clausen Institute for Product Innovation, University of Southern Denmark, Denmark.
5.         2002.01 - 2003.02 , Post Doc., Mads Clausen Institute for Product Innovation, University of Southern Denmark, Denmark.
6.         2000.09 - 2001.12 , Post Doc., Industrial Liaison Research Institute, Kyung Hee University, South Korea.
7.        1999.09 - 2000.09 , Post Doc., Research Center of BaoShan Iron & Steel Company, Shanghai, China.(co-funded by Shanghai Jiaotong University, China)
Research Interests
1.         Smart Structures, systems, and devices.
2.         Modeling of hysteresis in ferroelastic, ferroelectric, and ferromagnetic structures.
3.         Model reduction and its Applications, parameter estimations, optimizations.
4.        Numerical analysis of nonlinear PDEs.
Publication List
Journal article (From 2005£©:
1.         L. X. Wang, RVN, Melnik, Low dimensional approximations to ferroelastic dynamics and hysteretic behaviour due to phase transformations£¬ ASME Trans, Journal of applied mechanics,
2.         L. X. Wang, M. Willatzen, Extension of the Landau theory for hysteretic electric dynamics in ferroelectric ceramics, Journal of Electroceramics, 2010, 24(1):51-57

3.         L. X. Wang, RVN, Melnik,Control of coupled hysteretic dynamics of ferroelectric materials with a Landau-type differential model and feedback linearization£¬Smart Materials & Structures, 2009, 18(7):074011.

4.         L. X. Wang, M. Willatzen, Modelling of nonlinear dynamics for reciprocal multi-layer piezoceramic transducer systems, Applied Mathematical Modelling, 2009, 33:2263-2273. 

5.         L. X. Wang, R. Liu, R. V. N. Melnik, Modeling large reversible electric-field-induced strain in ferroelectric materials using 90o orientation switching, Sci China Ser E-Tech Sci£¬ 2009, 52(1): 141-147. 

6.         M. Willatzen, L. X. Wang, and L.C. Lew Yan Voon, Electrostriction in GaN/AlN heterostructures, Superlattices and Microstructures, 2008, 43(5-6): 436-440.

7.         L. X. Wang, R. V. N. Melnik, Modifying macroscale variant combinations in 2D structure using mechanical loadings during thermally induced transformation, Material Science and Engineering A, 2008, 481-482:190-193.

8.         L. X. Wang, R. V. N. Melnik, Simulation of phase combinations in shape memory alloys patches by hybrid optimization methods, Applied Numerical Mathematics, 2008, 58 (4):511-524.

9.         M. Willatzen, L.X. Wang, Mathematical modelling of one-dimensional piezoelectric transducers based on monoclinic crystals, Acta Acustica united with Acustica, 2007, 93 (5):716-721

10.     L. X. Wang, R. V. N. Melnik, Thermo-mechanical wave propagation in shape memory alloy rod with phase transformations, Mechanics of Advanced Materials and Structures, 2007, 14 (8):665-676.

11.     L. X. Wang, R. V. N. Melnik, Finite volume analysis of nonlinear thermo-mechanical dynamics of shape memory alloys, Heat and Mass Transfer, 2007, 43(6):535-546

12.     L. X. Wang, R. V. N. Melnik, Numerical model for vibration damping resulting from the first order phase transformations, Applied Mathematical Modelling, 2007, 31:2008-2018.

13.     L.X.Wang, and M. Willatzen, Nonlinear dynamical model For hysteresis based on non-convex potential energy, ASCE, Journal of Engineering Mechanics, 2007, 133(5):506-513.

14.     L. X. Wang, R. V. N. Melnik, Model reduction applied to the square to rectangular martensite transformation using proper orthogonal decomposition, Applied Numerical Mathematics, 2007, 57:510-520.

15.     L.X. Wang, M. Willatzen, Modelling of nonlinear responses for reciprocal transducers involving polarization switching, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 2007, 54(1):177-189.

16.     L. X. Wang, R. V. N. Melnik, Mechanically induced phase combination by Chebyshev collocation methods, Material Science and Engineering A, 2006, 438-440 : 427-430.

17.     L. X. Wang, R. V. N. Melnik, Dfferential-algebraic approach for coupled problems of dynamic thermoelasticity, Applied Mathematics and Mechanics, 2006, 27(9):1185-1196.

18.     L. X. Wang, R. V. N. Melnik, Two-dimensional analysis of shape memory alloys under small loadings, International Journal of multiscale computational engineering, 2006, 4 (2):291-304.

19.     L.X.Wang, H. Kamath, Modelling hysteretic behavior in magnetorheological fluids and dampers using phase-transition theory, Smart Materials and Structures, 2006, 15 (6):1725-1733.

20.    L. X. Wang, R. V. N. Melnik, Dynamics of Shape memory alloy patches with mechanically induced transformations, Discrete and Continuous Dynamical System, 2006, 15 (4):1237- 1252.

Peer reviewed conference papers (from 2005):
1.         L.X.Wang, C. Q. Zhou, C. S. Feng, Nonlinear differential equation approach for the two-way shape memory effects of one-dimensional shape memory alloy structures, On the Second International Conference on Smart Materials and Nanotechnology in Engineering, 2009, Proc. of SPIE Vol. 7493, 74931Z
2.         R.Melnik, L.X.Wang, Developing mesoscopic models describing phase transformations in finite nanowires and annoplates, The III international conference on computational methods fro coupled problems in Science and Engineering, Italy, June 2009, 4 pages, B.Schrefler, E.Onate and M. Papadrakis (Eds. ), CIMNE, Barcelona, ISBN:978-84-96736-65-8.
3.         Cheng Zhang, Linxiang Wang, Dynamic Models for Magnetorheological Dampers And its feedback linearization, Advanced Material Research, 2009, Vol 76, 1205-1208.
4.         L. X. Wang, Hysteretic dynamics of ferroelectric materials under electromechanical loadings. Paper SMASis-333, in the Proceedings of SMASIS08 ASME Conference on Smart Materials, Adaptive Structures and Intelligent Systems. ISBN:978-0-7918-3839-6, October 28-30, 2008, Ellicott City, Maryland, USA.
5.         L. X. Wang, M. Willatzen, and R.V.N. Melnik, Modelling Nonlinear Electro-Mechanical Effects in Nano-Heterostructures Using Domain-Decomposition Methods, proceedings of the ninth international conference on computational structures technology, Greece, Athens, Sep 2th - 5th. 2008, ISBN: 978-1-905088-22-5.
6.         L. X. Wang, R. V. N. Melnik, Phase Transformations in Finite Length Nanowires: Analysis with Mesoscopic Models, proceedings of the sixth international conference on engineering computational technology, Greece, Athens, Sep 2th-5th. 2008,ISBH: 978-1-905088-25-6.
7.         L. X. Wang, R. Liu, R. V. N. Melnik, Feedback Linearization of Hysteretic Thermoelastic Dynamics of Shape Memory Alloy Actuators with Phase Transformations, Advanced Materials Research, 2008, (47-50):69-72.
8.         L. X. Wang, Y. Chen, and W. L. Zhao, Macroscopic Differential Model for Hysteresis and Buttery-Shaped Behavior in Ferroelectric Materials, Advanced Materials Research , 2008, (47-50): 65-68.
9.         L. X. Wang, M. Willatzen, R. V. N. Melnik, Modelling of reciprocal transducer system accounting for nonlinear constitutive relations, Proceedings of World Congress on Engineering 2007, July 2-4, London, pp:1242-1246 ISBN:978-988-98671-2-6.
10.     L. X. Wang, R. V. N. Melnik, M. Willatzen, Feedback linearization of hysteretic dynamics of smart materials and devices, Proceedings of 10th International Conference and Exhibition of the European Ceramic Society, June 17 - 21, Berlin, 2007.
11.     M. Willatzen, L. X. Wang, and L.C. Lew Yan Voon, Electrostriction in GaN/AlN heterostructures, in the Proceedings of PLMCN7, Havanna, Cuba (2007).
12.     R. Melnik, D. Roy Mahapatra, L. X. Wang, A. Roberts, Numerical Methods for Coupled Nonlinear Problems of Dynamic Thermoelasticity and Shape Memory Alloys Modelling, Int. Conf. on Computational Methods of Coupled Problems in Science and Engineering,2007, E. Onate, M. Papadrakakis and B. Schreer (Eds), CIMNE, Barcelona, 2007, ISBN:978-84-96736-18-4.
13.     L. X. Wang, R. V. N. Melnik, Modelling Frequency Adjustment Effects Using Shape Memory Alloy Oscillators, in Proceedings of the Eighth International Conference on Computational Structures Technology, B.H.V. Topping, G. Montero and R. Montenegro, (Editors), Civil-Comp Press, Stirlingshire, United Kingdom, paper 99 (13 pages),ISBN 1-905088-07-8, 2006.
14.     L. X. Wang, R. V. N. Melnik, Numerical model for thermo-mechanical wave propagation with phase transformations, in proceeding of the third European conference on Computational Mechanics (CD-Rom), Lisbon, Portugal, June 5th - 9th, paper 1438 (12 pages), 2006.
15.     J.Gravesen, B. Lassen, R. Melnik, B.Picasso, R. Piche, N. Tsfulobiv, L.X.Wang, Determination of distance from a 2D picture,Journal of physics:conference series, Vol.52. pp 46-57, 2006.
16.     M.Willatzen, L. X. Wang, Y. Y. Feng, Nonlinearities and hysteresis phenomena in reciprocal ultrasound systems, Proceedings of IEEE International Ultrasonics Symposium, 2005, Rotterdam, Netherland.
17.     R. V. N. Melnik, L. X. Wang, and D. R. Mahapatra, Numerical models for biocompatible shape memory materials and their biomedical applications, in Proceedings of the 17th World Congress on Scientific Computation, Applied Mathematics and Simulation, Eds. P. Borne et al, 7 pages, CD-ROM, ISBN 2-915913-02-1£¬2005

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